2.Operating temperature specifications for the router will differ from those listed in this table when 40-port Gigabit Ethernet line cards using GLC-GE-100FX SFP transceiver modules are installed in the router. This is due to the lower temperature specifications of the SFP module. Please contact a Cisco representative for more information.

3. Short term operating temperature specifications for the router will differ from those listed in this table when the 16-port 10-Gigabit Ethernet line card is installed in the router because of the lower temperature specifications of the SFP+ modules and that are used in this line card. When using this line card, the maximum operating temperature is 104°F (40°C).

4.Short-term refers to a period of not more than 96 consecutive hours and a total of no more than 15 days in 1 year. (This refers to a total of 360 hours in any given year, but no more than 15 occurrences during that 1-year period.).

6.Operating altitude specifications for the router will differ from those listed in this table when the 16-port 10-Gigabit Ethernet line card is installed in the router. When using the SFP-10G-SR module, the maximum altitude is 5905 ft. (1800 m). When using the SFP-10G-LR or SFP-10G-ER modules, the maximum altitude is sea level.

At least two AC power modules required for N+1 redundancy for a fully configured system

At least two AC power modules required for N+1 redundancy for a fully configured system

AC power modules operate in N+N redundancy mode2

AC power modules operate in N+N redundancy mode2

9.For each AC power supply module. Some power/chassis configurations may operate at lower current ratings than those specified in this table. Contact your Cisco technical representative for more information.

10. The number of AC power modules needed depends on the configuration of the chassis (e.g. number of line cards, RPs, and FC cards installed). Use the Cisco Power Calculator (Cisco.com account required) at http://tools.cisco.com/cpc/launch.jsp to calculate how many AC power modules are needed.

Caution Be sure that the chassis configuration complies with the required power budgets. Failure to properly verify the configuration may result in an unpredictable state if one of the power units fails. Contact your local sales representative for assistance.

Cisco ASR 9000 Series Routers DC Electrical Specifications

Table A-4 Cisco ASR 9000 Series Routers DC Electrical Specifications

Description

ASR 9010

ASR 9006

ASR 9904

ASR 9922

ASR 9912

Power modules per system

Version 1 power system: Up to six DC power module per system, three per tray

Version 2 power system: Up to eight DC power modules per system, four per tray

Version 3 power system: Up to eight DC power modules per system, four per tray

Version 1 power system: Up to three DC power modules per system

Version 2 power system: Up to four DC power modules per system

Version 2 power system: Up to four DC power modules per system

Version 2 power system: Up to sixteen DC power modules per system, four per tray

Version 3 power system: Up to sixteen DC power modules per system, four per tray

Version 2 power system: Up to twelve DC power modules per system, four per tray

Version 3 power system: Up to twelve DC power modules per system, four per tray

Total DC input power per power module

Version 1 power system: 1700 W (1500 W output module)

Version 2 power system: 2340 W (2100 W output module)

Version 3 power system: 4730 W (4400 W output module)

Version 1 power system: 1700 W (1500 W output module)

Version 2 power system: 2300 W (2100 W output module)

Version 2 power system: 2300 W (2100 W output module)

Version 2 power system: 2340 W (2100 W output module)

Version 3 power system: 4730 W (4400 W output module)

Version 2: 2340 W (2100 W output module)

Version 3 power system: 4730 W (4400 W output module)

Rated input voltage per power module

–48 VDC nominal in North America –60 VDC nominal in the European Community (Range: –40.5 to –72 VDC [–75 VDC for 5 ms])

At least two DC power modules are required for N+1 redundancy for a fully configured system

At least two DC power modules are required for N+1 redundancy for a fully configured system

DC power modules operate in N+1 redundancy mode2

DC power modules operate in N+1 redundancy mode2

11.For each DC power supply module. Some power/chassis configurations may operate at lower current ratings than those specified in this table. Contact your Cisco technical representative for more information.

12. The number of DC power modules needed depends on the configuration of the chassis (e.g. number of line cards, RPs, and FC cards installed). Use the Cisco Power Calculator (Cisco.com account required) at http://tools.cisco.com/cpc/launch.jsp to calculate how many AC power modules are needed.

Caution Be sure that the chassis configuration complies with the required power budgets. Failure to properly verify the configuration may result in an unpredictable state if one of the power units fails.